/** @file HL_ecap.c 
*   @brief ECAP Driver Source File
*   @date 07-July-2017
*   @version 04.07.00
*
*   This file contains:
*   - API Functions
*   - Interrupt Handlers
*   .
*   which are relevant for the ECAP driver.
*/

/* 
* Copyright (C) 2009-2016 Texas Instruments Incorporated - www.ti.com  
* 
* 
*  Redistribution and use in source and binary forms, with or without 
*  modification, are permitted provided that the following conditions 
*  are met:
*
*    Redistributions of source code must retain the above copyright 
*    notice, this list of conditions and the following disclaimer.
*
*    Redistributions in binary form must reproduce the above copyright
*    notice, this list of conditions and the following disclaimer in the 
*    documentation and/or other materials provided with the   
*    distribution.
*
*    Neither the name of Texas Instruments Incorporated nor the names of
*    its contributors may be used to endorse or promote products derived
*    from this software without specific prior written permission.
*
*  THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 
*  "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 
*  LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
*  A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT 
*  OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, 
*  SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT 
*  LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
*  DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
*  THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 
*  (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE 
*  OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
*/



#include "HL_ecap.h"
#include "HL_sys_vim.h"


/* USER CODE BEGIN (0) */
/* USER CODE END */

/** @fn void ecapInit(void)
*   @brief Initializes the eCAP Driver
*
*   This function initializes the eCAP module.
*/
/* SourceId : ECAP_SourceId_001 */
/* DesignId : ECAP_DesignId_001 */
/* Requirements : HL_CONQ_ECAP_SR2 */
void ecapInit(void)
{
/* USER CODE BEGIN (1) */
/* USER CODE END */

    /** @b initialize @b ECAP1 */

    /** - Setup control register 1 
    *     - Set polarity and reset enable for Capture Events 1-4
    *     - Enable/Disable loading on a capture event
    *     - Setup Event Filter prescale
    */
    ecapREG1->ECCTL1 = ((uint16)((uint16)RISING_EDGE << 0U)        /* Capture Event 1 Polarity */
                      | (uint16)((uint16)RESET_DISABLE << 1U)   /* Counter Reset on Capture Event 1 */
                      | (uint16)((uint16)RISING_EDGE << 2U)        /* Capture Event 2 Polarity */
                      | (uint16)((uint16)RESET_DISABLE << 3U)   /* Counter Reset on Capture Event 2 */
                      | (uint16)((uint16)RISING_EDGE << 4U)        /* Capture Event 3 Polarity */
                      | (uint16)((uint16)RESET_DISABLE << 5U)   /* Counter Reset on Capture Event 3 */
                      | (uint16)((uint16)RISING_EDGE << 6U)        /* Capture Event 4 Polarity */
                      | (uint16)((uint16)RESET_DISABLE << 7U)   /* Counter Reset on Capture Event 4 */
                      | (uint16)((uint16)0U << 8U)            /* Enable/Disable loading on a capture event */
                      | (uint16)((uint16)0U << 9U));      /* Setup Event Filter prescale */
    
    /** - Setup control register 2
    *     - Set operating mode
    *     - Set Stop/Wrap after capture
    */
    ecapREG1->ECCTL2 = (uint16)((uint16)ONE_SHOT << 0U)      /* Capture Mode */
                     | (uint16)((uint16)CAPTURE_EVENT1 << 1U)       /* Stop/Wrap value */
                     | (uint16)((uint16)0U << 9U)      /* Enable/Disable APWM mode */
                     | (uint16)0x00000010U;      /* Start counter */
    
    

    /** - Set interrupt enable */
     ecapREG1->ECEINT = 0x0000U    /* Enable/Disable Capture Event 1 Interrupt  */
                      | 0x0000U    /* Enable/Disable Capture Event 2 Interrupt  */
                      | 0x0000U    /* Enable/Disable Capture Event 3 Interrupt  */
                      | 0x0000U    /* Enable/Disable Capture Event 4 Interrupt  */
                      | 0x0000U    /* Enable/Disable counter Overflow Interrupt */
                      | 0x0000U    /* Enable/Disable Period Equal Interrupt     */
                      | 0x0000U;   /* Enable/Disable Compare Equal Interrupt    */

     /** @b initialize @b ECAP2 */

    /** - Setup control register 1 
    *     - Set polarity and reset enable for Capture Events 1-4
    *     - Enable/Disable loading on a capture event
    *     - Setup Event Filter prescale
    */
    ecapREG2->ECCTL1 = ((uint16)((uint16)RISING_EDGE << 0U)        /* Capture Event 1 Polarity */
                      | (uint16)((uint16)RESET_DISABLE << 1U)   /* Counter Reset on Capture Event 1 */
                      | (uint16)((uint16)RISING_EDGE << 2U)        /* Capture Event 2 Polarity */
                      | (uint16)((uint16)RESET_DISABLE << 3U)   /* Counter Reset on Capture Event 2 */
                      | (uint16)((uint16)RISING_EDGE << 4U)        /* Capture Event 3 Polarity */
                      | (uint16)((uint16)RESET_DISABLE << 5U)   /* Counter Reset on Capture Event 3 */
                      | (uint16)((uint16)RISING_EDGE << 6U)        /* Capture Event 4 Polarity */
                      | (uint16)((uint16)RESET_DISABLE << 7U)   /* Counter Reset on Capture Event 4 */
                      | (uint16)((uint16)0U << 8U)            /* Enable/Disable loading on a capture event */
                      | (uint16)((uint16)0U << 9U));      /* Setup Event Filter prescale */

                    
    /** - Setup control register 2
    *     - Set operating mode
    *     - Set Stop/Wrap after capture
    */
    ecapREG2->ECCTL2 = (uint16)((uint16)ONE_SHOT << 0U)      /* Capture Mode */
                     | (uint16)((uint16)CAPTURE_EVENT1 << 1U)       /* Stop/Wrap value */
                     | (uint16)((uint16)0U << 9U)      /* Enable/Disable APWM mode */
                     | (uint16)0x00000010U;      /* Start counter */
    
    

    /** - Set interrupt enable */
     ecapREG2->ECEINT = 0x0000U    /* Enable/Disable Capture Event 1 Interrupt  */
                      | 0x0000U    /* Enable/Disable Capture Event 2 Interrupt  */
                      | 0x0000U    /* Enable/Disable Capture Event 3 Interrupt  */
                      | 0x0000U    /* Enable/Disable Capture Event 4 Interrupt  */
                      | 0x0000U    /* Enable/Disable counter Overflow Interrupt */
                      | 0x0000U    /* Enable/Disable Period Equal Interrupt     */
                      | 0x0000U;   /* Enable/Disable Compare Equal Interrupt    */

    /** @b initialize @b ECAP3 */

    /** - Setup control register 1 
    *     - Set polarity and reset enable for Capture Events 1-4
    *     - Enable/Disable loading on a capture event
    *     - Setup Event Filter prescale
    */
    ecapREG3->ECCTL1 = ((uint16)((uint16)RISING_EDGE << 0U)        /* Capture Event 1 Polarity */
                      | (uint16)((uint16)RESET_DISABLE << 1U)   /* Counter Reset on Capture Event 1 */
                      | (uint16)((uint16)RISING_EDGE << 2U)        /* Capture Event 2 Polarity */
                      | (uint16)((uint16)RESET_DISABLE << 3U)   /* Counter Reset on Capture Event 2 */
                      | (uint16)((uint16)RISING_EDGE << 4U)        /* Capture Event 3 Polarity */
                      | (uint16)((uint16)RESET_DISABLE << 5U)   /* Counter Reset on Capture Event 3 */
                      | (uint16)((uint16)RISING_EDGE << 6U)        /* Capture Event 4 Polarity */
                      | (uint16)((uint16)RESET_DISABLE << 7U)   /* Counter Reset on Capture Event 4 */
                      | (uint16)((uint16)0U << 8U)            /* Enable/Disable loading on a capture event */
                      | (uint16)((uint16)0U << 9U));      /* Setup Event Filter prescale */

                    
    /** - Setup control register 2
    *     - Set operating mode
    *     - Set Stop/Wrap after capture
    */
    ecapREG3->ECCTL2 = (uint16)((uint16)ONE_SHOT << 0U)      /* Capture Mode */
                     | (uint16)((uint16)CAPTURE_EVENT1 << 1U)       /* Stop/Wrap value */
                     | (uint16)((uint16)0U << 9U)      /* Enable/Disable APWM mode */
                     | (uint16)0x00000010U;      /* Start counter */
    
    

    /** - Set interrupt enable */
     ecapREG3->ECEINT = 0x0000U    /* Enable/Disable Capture Event 1 Interrupt  */
                      | 0x0000U    /* Enable/Disable Capture Event 2 Interrupt  */
                      | 0x0000U    /* Enable/Disable Capture Event 3 Interrupt  */
                      | 0x0000U    /* Enable/Disable Capture Event 4 Interrupt  */
                      | 0x0000U    /* Enable/Disable counter Overflow Interrupt */
                      | 0x0000U    /* Enable/Disable Period Equal Interrupt     */
                      | 0x0000U;   /* Enable/Disable Compare Equal Interrupt    */

    /** @b initialize @b ECAP4 */

    /** - Setup control register 1 
    *     - Set polarity and reset enable for Capture Events 1-4
    *     - Enable/Disable loading on a capture event
    *     - Setup Event Filter prescale
    */
    ecapREG4->ECCTL1 = ((uint16)((uint16)RISING_EDGE << 0U)        /* Capture Event 1 Polarity */
                      | (uint16)((uint16)RESET_DISABLE << 1U)   /* Counter Reset on Capture Event 1 */
                      | (uint16)((uint16)RISING_EDGE << 2U)        /* Capture Event 2 Polarity */
                      | (uint16)((uint16)RESET_DISABLE << 3U)   /* Counter Reset on Capture Event 2 */
                      | (uint16)((uint16)RISING_EDGE << 4U)        /* Capture Event 3 Polarity */
                      | (uint16)((uint16)RESET_DISABLE << 5U)   /* Counter Reset on Capture Event 3 */
                      | (uint16)((uint16)RISING_EDGE << 6U)        /* Capture Event 4 Polarity */
                      | (uint16)((uint16)RESET_DISABLE << 7U)   /* Counter Reset on Capture Event 4 */
                      | (uint16)((uint16)0U << 8U)            /* Enable/Disable loading on a capture event */
                      | (uint16)((uint16)0U << 9U));      /* Setup Event Filter prescale */

                    
    /** - Setup control register 2
    *     - Set operating mode
    *     - Set Stop/Wrap after capture
    */
    ecapREG4->ECCTL2 = (uint16)((uint16)ONE_SHOT << 0U)      /* Capture Mode */
                     | (uint16)((uint16)CAPTURE_EVENT1 << 1U)       /* Stop/Wrap value */
                     | (uint16)((uint16)0U << 9U)      /* Enable/Disable APWM mode */
                     | (uint16)0x00000010U;      /* Start counter */
    
    

    /** - Set interrupt enable */
     ecapREG4->ECEINT = 0x0000U    /* Enable/Disable Capture Event 1 Interrupt  */
                      | 0x0000U    /* Enable/Disable Capture Event 2 Interrupt  */
                      | 0x0000U    /* Enable/Disable Capture Event 3 Interrupt  */
                      | 0x0000U    /* Enable/Disable Capture Event 4 Interrupt  */
                      | 0x0000U    /* Enable/Disable counter Overflow Interrupt */
                      | 0x0000U    /* Enable/Disable Period Equal Interrupt     */
                      | 0x0000U;   /* Enable/Disable Compare Equal Interrupt    */

    /** @b initialize @b ECAP5 */

    /** - Setup control register 1 
    *     - Set polarity and reset enable for Capture Events 1-4
    *     - Enable/Disable loading on a capture event
    *     - Setup Event Filter prescale
    */
    ecapREG5->ECCTL1 = ((uint16)((uint16)RISING_EDGE << 0U)        /* Capture Event 1 Polarity */
                      | (uint16)((uint16)RESET_DISABLE << 1U)   /* Counter Reset on Capture Event 1 */
                      | (uint16)((uint16)RISING_EDGE << 2U)        /* Capture Event 2 Polarity */
                      | (uint16)((uint16)RESET_DISABLE << 3U)   /* Counter Reset on Capture Event 2 */
                      | (uint16)((uint16)RISING_EDGE << 4U)        /* Capture Event 3 Polarity */
                      | (uint16)((uint16)RESET_DISABLE << 5U)   /* Counter Reset on Capture Event 3 */
                      | (uint16)((uint16)RISING_EDGE << 6U)        /* Capture Event 4 Polarity */
                      | (uint16)((uint16)RESET_DISABLE << 7U)   /* Counter Reset on Capture Event 4 */
                      | (uint16)((uint16)0U << 8U)            /* Enable/Disable loading on a capture event */
                      | (uint16)((uint16)0U << 9U));      /* Setup Event Filter prescale */

                    
    /** - Setup control register 2
    *     - Set operating mode
    *     - Set Stop/Wrap after capture
    */
    ecapREG5->ECCTL2 = (uint16)((uint16)ONE_SHOT << 0U)      /* Capture Mode */
                     | (uint16)((uint16)CAPTURE_EVENT1 << 1U)       /* Stop/Wrap value */
                     | (uint16)((uint16)0U << 9U)      /* Enable/Disable APWM mode */
                     | (uint16)0x00000010U;      /* Start counter */
    
    

    /** - Set interrupt enable */
     ecapREG5->ECEINT = 0x0000U    /* Enable/Disable Capture Event 1 Interrupt  */
                      | 0x0000U    /* Enable/Disable Capture Event 2 Interrupt  */
                      | 0x0000U    /* Enable/Disable Capture Event 3 Interrupt  */
                      | 0x0000U    /* Enable/Disable Capture Event 4 Interrupt  */
                      | 0x0000U    /* Enable/Disable counter Overflow Interrupt */
                      | 0x0000U    /* Enable/Disable Period Equal Interrupt     */
                      | 0x0000U;   /* Enable/Disable Compare Equal Interrupt    */

    /** @b initialize @b ECAP6 */

    /** - Setup control register 1 
    *     - Set polarity and reset enable for Capture Events 1-4
    *     - Enable/Disable loading on a capture event
    *     - Setup Event Filter prescale
    */
    ecapREG6->ECCTL1 = ((uint16)((uint16)RISING_EDGE << 0U)        /* Capture Event 1 Polarity */
                      | (uint16)((uint16)RESET_DISABLE << 1U)   /* Counter Reset on Capture Event 1 */
                      | (uint16)((uint16)RISING_EDGE << 2U)        /* Capture Event 2 Polarity */
                      | (uint16)((uint16)RESET_DISABLE << 3U)   /* Counter Reset on Capture Event 2 */
                      | (uint16)((uint16)RISING_EDGE << 4U)        /* Capture Event 3 Polarity */
                      | (uint16)((uint16)RESET_DISABLE << 5U)   /* Counter Reset on Capture Event 3 */
                      | (uint16)((uint16)RISING_EDGE << 6U)        /* Capture Event 4 Polarity */
                      | (uint16)((uint16)RESET_DISABLE << 7U)   /* Counter Reset on Capture Event 4 */
                      | (uint16)((uint16)0U << 8U)            /* Enable/Disable loading on a capture event */
                      | (uint16)((uint16)0U << 9U));      /* Setup Event Filter prescale */

                    
    /** - Setup control register 2
    *     - Set operating mode
    *     - Set Stop/Wrap after capture
    */
    ecapREG6->ECCTL2 = (uint16)((uint16)ONE_SHOT << 0U)        /* Capture Mode */
                     | (uint16)((uint16)CAPTURE_EVENT1 << 1U)       /* Stop/Wrap value */
                     | (uint16)((uint16)0U << 9U)      /* Enable/Disable APWM mode */
                     | (uint16)0x00000010U;      /* Start counter */
    
    

    /** - Set interrupt enable */
     ecapREG6->ECEINT = 0x0000U    /* Enable/Disable Capture Event 1 Interrupt  */
                      | 0x0000U    /* Enable/Disable Capture Event 2 Interrupt  */
                      | 0x0000U    /* Enable/Disable Capture Event 3 Interrupt  */
                      | 0x0000U    /* Enable/Disable Capture Event 4 Interrupt  */
                      | 0x0000U    /* Enable/Disable counter Overflow Interrupt */
                      | 0x0000U    /* Enable/Disable Period Equal Interrupt     */
                      | 0x0000U;   /* Enable/Disable Compare Equal Interrupt    */

}

/** @fn void ecapSetCounter(ecapBASE_t *ecap, uint32 value)
*   @brief Set Time-Stamp Counter
*
*   @param[in] ecap  The capture (eCAP) object handle (ecapREG1..6)
*   @param[in] value 16-bit Counter value
*
*   This function sets the Time-Stamp Counter register
*/
/* SourceId : ECAP_SourceId_002 */
/* DesignId : ECAP_DesignId_002 */
/* Requirements : HL_CONQ_ECAP_SR3 */
void ecapSetCounter(ecapBASE_t *ecap, uint32 value)
{
    ecap->TSCTR = value;
}

/** @fn void ecapEnableCounterLoadOnSync(ecapBASE_t *ecap, uint32 phase)
*   @brief Enable counter register load from phase register when a sync event occurs
*
*   @param[in] ecap  The capture (eCAP) object handle (ecapREG1..6)
*   @param[in] phase Counter value to be loaded when a sync event occurs
*
*   This function enables counter register load from phase register when a sync event occurs
*/
/* SourceId : ECAP_SourceId_003 */
/* DesignId : ECAP_DesignId_003 */
/* Requirements : HL_CONQ_ECAP_SR6 */
void ecapEnableCounterLoadOnSync(ecapBASE_t *ecap, uint32 phase)
{
    ecap->ECCTL2 |= 0x0020U;
    ecap->CTRPHS = phase;
}

/** @fn void ecapDisableCounterLoadOnSync(ecapBASE_t *ecap)
*   @brief Disable counter register load from phase register when a sync event occurs
*
*   @param[in] ecap  The capture (eCAP) object handle (ecapREG1..6)
*
*   This function disables counter register load from phase register when a sync event occurs
*/
/* SourceId : ECAP_SourceId_004 */
/* DesignId : ECAP_DesignId_004 */
/* Requirements : HL_CONQ_ECAP_SR7 */
void ecapDisableCounterLoadOnSync(ecapBASE_t *ecap)
{
    ecap->ECCTL2 &= (uint16)~(uint16)0x0020U;
}

/** @fn void ecapSetEventPrescaler(ecapBASE_t *ecap, ecapPrescale_t prescale)
*   @brief Set Event prescaler
*
*   @param[in] ecap      The capture (eCAP) object handle (ecapREG1..6)
*   @param[in] prescale  Event Filter prescale select (ecapPrescale_By_1..ecapPrescale_By_62)
*
*   This function disables counter register load from phase register when a sync event occurs
*/
/* SourceId : ECAP_SourceId_005 */
/* DesignId : ECAP_DesignId_005 */
/* Requirements : HL_CONQ_ECAP_SR8 */
void ecapSetEventPrescaler(ecapBASE_t *ecap, ecapPrescale_t prescale)
{
    ecap->ECCTL1 &= (uint16)~(uint16)0x3E00U;
    ecap->ECCTL1 |= (uint16)prescale;
}

/** @fn void ecapSetCaptureEvent1(ecapBASE_t *ecap, ecapEdgePolarity_t edgePolarity, ecapReset_t resetenable)
*   @brief Set Capture Event 1
*
*   @param[in] ecap           The capture (eCAP) object handle (ecapREG1..6)
*   @param[in] edgePolarity   Capture Event 1 Polarity select
*                               - RISING_EDGE
*                               - FALLING_EDGE
*   @param[in] resetenable    Counter Reset on Capture Event 1
*                               - RESET_ENABLE
*                               - RESET_DISABLE
*
*   This function sets the polarity and reset enable for Capture event 1
*/
/* SourceId : ECAP_SourceId_006 */
/* DesignId : ECAP_DesignId_006 */
/* Requirements : HL_CONQ_ECAP_SR9 */
void ecapSetCaptureEvent1(ecapBASE_t *ecap, ecapEdgePolarity_t edgePolarity, ecapReset_t resetenable)
{
    ecap->ECCTL1 &= (uint16)~(uint16)((uint16)0x3U << 0U);
    ecap->ECCTL1 |= (uint16)(((uint16)edgePolarity | (uint16)((uint16)resetenable << 1U)) << 0U);
}

/** @fn void ecapSetCaptureEvent2(ecapBASE_t *ecap, ecapEdgePolarity_t edgePolarity, ecapReset_t resetenable)
*   @brief Set Capture Event 2
*
*   @param[in] ecap           The capture (eCAP) object handle (ecapREG1..6)
*   @param[in] edgePolarity   Capture Event 2 Polarity select
*                               - RISING_EDGE
*                               - FALLING_EDGE
*   @param[in] resetenable    Counter Reset on Capture Event 2
*                               - RESET_ENABLE
*                               - RESET_DISABLE
*
*   This function sets the polarity and reset enable for Capture event 2
*/
/* SourceId : ECAP_SourceId_007 */
/* DesignId : ECAP_DesignId_006 */
/* Requirements : HL_CONQ_ECAP_SR9 */
void ecapSetCaptureEvent2(ecapBASE_t *ecap, ecapEdgePolarity_t edgePolarity, ecapReset_t resetenable)
{
    ecap->ECCTL1 &= (uint16)~(uint16)((uint16)0x3U << 2U);
    ecap->ECCTL1 |= (uint16)(((uint16)edgePolarity | (uint16)((uint16)resetenable << 1U)) << 2U);
}

/** @fn void ecapSetCaptureEvent3(ecapBASE_t *ecap, ecapEdgePolarity_t edgePolarity, ecapReset_t resetenable)
*   @brief Set Capture Event 3
*
*   @param[in] ecap           The capture (eCAP) object handle (ecapREG1..6)
*   @param[in] edgePolarity   Capture Event 3 Polarity select
*                               - RISING_EDGE
*                               - FALLING_EDGE
*   @param[in] resetenable    Counter Reset on Capture Event 3
*                              - RESET_ENABLE
*                              - RESET_DISABLE
*
*   This function sets the polarity and reset enable for Capture event 3
*/
/* SourceId : ECAP_SourceId_008 */
/* DesignId : ECAP_DesignId_006 */
/* Requirements : HL_CONQ_ECAP_SR9 */
void ecapSetCaptureEvent3(ecapBASE_t *ecap, ecapEdgePolarity_t edgePolarity, ecapReset_t resetenable)
{
    ecap->ECCTL1 &= (uint16)~(uint16)((uint16)0x3U << 4U);
    ecap->ECCTL1 |= (uint16)(((uint16)edgePolarity | (uint16)((uint16)resetenable << 1U)) << 4U);
}

/** @fn void ecapSetCaptureEvent4(ecapBASE_t *ecap, ecapEdgePolarity_t edgePolarity, ecapReset_t resetenable)
*   @brief Set Capture Event 4
*
*   @param[in] ecap           The capture (eCAP) object handle (ecapREG1..6)
*   @param[in] edgePolarity   Capture Event 4 Polarity select
*                               - RISING_EDGE
*                               - FALLING_EDGE
*   @param[in] resetenable    Counter Reset on Capture Event 4
*                               - RESET_ENABLE
*                               - RESET_DISABLE
*
*   This function sets the polarity and reset enable for Capture event 4
*/
/* SourceId : ECAP_SourceId_009 */
/* DesignId : ECAP_DesignId_006 */
/* Requirements : HL_CONQ_ECAP_SR9 */
void ecapSetCaptureEvent4(ecapBASE_t *ecap, ecapEdgePolarity_t edgePolarity, ecapReset_t resetenable)
{
    ecap->ECCTL1 &= (uint16)~(uint16)((uint16)0x3U << 6U);
    ecap->ECCTL1 |= (uint16)(((uint16)edgePolarity | (uint16)((uint16)resetenable << 1U)) << 6U);
}

/** @fn void ecapSetCaptureMode(ecapBASE_t *ecap, ecapMode_t mode, ecapEvent_t event)
*   @brief Set Capture mode
*
*   @param[in] ecap     The capture (eCAP) object handle (ecapREG1..6)
*   @param[in] capMode  Capture mode
*                         - CONTINUOUS
*                         - ONE_SHOT
*   @param[in] event    Stop/Wrap value
*                         - CAPTURE_EVENT1: Stop after Capture Event 1 in one-shot mode / Wrap after Capture Event 1 in continuous mode
*                         - CAPTURE_EVENT2: Stop after Capture Event 2 in one-shot mode / Wrap after Capture Event 2 in continuous mode.
*                         - CAPTURE_EVENT3: Stop after Capture Event 3 in one-shot mode / Wrap after Capture Event 3 in continuous mode.
*                         - CAPTURE_EVENT4: Stop after Capture Event 4 in one-shot mode / Wrap after Capture Event 4 in continuous mode.
*
*   This function sets the capture mode and stop/wrap value
*/
/* SourceId : ECAP_SourceId_010 */
/* DesignId : ECAP_DesignId_007 */
/* Requirements : HL_CONQ_ECAP_SR10 */
void ecapSetCaptureMode(ecapBASE_t *ecap, ecapMode_t capMode, ecapEvent_t event)
{
    ecap->ECCTL2 &= 0xFFF8U;
    ecap->ECCTL2 |= ((uint16)((uint16)event << 1U) | (uint16)capMode);
}

/** @fn void ecapEnableCapture(ecapBASE_t *ecap)
*   @brief Enable Capture
*
*   @param[in] ecap  The capture (eCAP) object handle (ecapREG1..6)
*
*   This function enable loading of CAP1-4 registers on a capture event
*/
/* SourceId : ECAP_SourceId_011 */
/* DesignId : ECAP_DesignId_008 */
/* Requirements : HL_CONQ_ECAP_SR11 */
void ecapEnableCapture(ecapBASE_t *ecap)
{
    ecap->ECCTL1 |= 0x0100U;
}

/** @fn void ecapDisableCapture(ecapBASE_t *ecap)
*   @brief Disable Capture
*
*   @param[in] ecap  The capture (eCAP) object handle (ecapREG1..6)
*
*   This function disable loading of CAP1-4 registers on a capture event
*/
/* SourceId : ECAP_SourceId_012 */
/* DesignId : ECAP_DesignId_009 */
/* Requirements : HL_CONQ_ECAP_SR12 */
void ecapDisableCapture(ecapBASE_t *ecap)
{
    ecap->ECCTL1 &= (uint16)~(uint16)0x0100U;
}

/** @fn void ecapStartCounter(ecapBASE_t *ecap)
*   @brief Start Time Stamp Counter
*
*   @param[in] ecap  The capture (eCAP) object handle (ecapREG1..6)
*
*   This function starts Time Stamp Counter
*/
/* SourceId : ECAP_SourceId_013 */
/* DesignId : ECAP_DesignId_010 */
/* Requirements : HL_CONQ_ECAP_SR4 */
void ecapStartCounter(ecapBASE_t *ecap)
{
    ecap->ECCTL2 |= 0x0010U;
}

/** @fn void ecapStopCounter(ecapBASE_t *ecap))
*   @brief Stop Time Stamp Counter
*
*   @param[in] ecap  The capture (eCAP) object handle (ecapREG1..6)
*
*   This function stops Time Stamp Counter
*/
/* SourceId : ECAP_SourceId_014 */
/* DesignId : ECAP_DesignId_011 */
/* Requirements : HL_CONQ_ECAP_SR5 */
void ecapStopCounter(ecapBASE_t *ecap)
{
    ecap->ECCTL2 &= (uint16)~(uint16)0x0010U;
}

/** @fn void ecapSetSyncOut(ecapBASE_t *ecap, ecapSyncOut_t syncOutSrc)
*   @brief Set the source of Sync-out signal
*
*   @param[in] ecap       The capture (eCAP) object handle (ecapREG1..6)
*   @param[in] syncOutSrc Sync-Out Select
*                           - SyncOut_SyncIn: Sync In used for Sync Out
*                           - SyncOut_CTRPRD: CTR = PRD used for Sync Out
*                           - SyncOut_None  : Disables Sync Out
*
*   This function sets the source of Sync-out signal
*/
/* SourceId : ECAP_SourceId_015 */
/* DesignId : ECAP_DesignId_012 */
/* Requirements : HL_CONQ_ECAP_SR13 */
void ecapSetSyncOut(ecapBASE_t *ecap, ecapSyncOut_t syncOutSrc)
{
    ecap->ECCTL2 &= (uint16)~(uint16)0x00C0U;
    ecap->ECCTL2 |= syncOutSrc;
}

/** @fn void ecapEnableAPWMmode(ecapBASE_t *ecap, ecapAPWMPolarity_t pwmPolarity, uint16 period, uint16 duty)
*   @brief Enable APWM mode
*
*   @param[in] ecap          The capture (eCAP) object handle (ecapREG1..6)
*   @param[in] pwmPolarity   APWM output polarity select
*                             - ACTIVE_HIGH
*                             - ACTIVE_LOW
*   @param[in] period        APWM period (in terms of ticks)
*   @param[in] duty          APWM duty (in terms of ticks)
*
*   This function enables and sets APWM mode
*/
/* SourceId : ECAP_SourceId_016 */
/* DesignId : ECAP_DesignId_013 */
/* Requirements : HL_CONQ_ECAP_SR14 */
void ecapEnableAPWMmode(ecapBASE_t *ecap, ecapAPWMPolarity_t pwmPolarity, uint32 period, uint32 duty)
{
    ecap->ECCTL2 &= (uint16)~(uint16)0x0400U;
    ecap->ECCTL2 |= (uint16)((uint16)pwmPolarity << 10U) | (uint16)((uint16)1U << 9U);
    ecap->CAP1 = period - 1U;
    ecap->CAP2 = duty;
}

/** @fn void ecapDisableAPWMMode(ecapBASE_t *ecap)
*   @brief Disable APWM mode
*
*   @param[in] ecap       The capture (eCAP) object handle (ecapREG1..6)
*
*   This function disables APWM mode
*/
/* SourceId : ECAP_SourceId_017 */
/* DesignId : ECAP_DesignId_014 */
/* Requirements : HL_CONQ_ECAP_SR15 */
void ecapDisableAPWMMode(ecapBASE_t *ecap)
{
    ecap->ECCTL2 &= (uint16)~(uint16)0x0200U;
}

/** @fn void ecapEnableInterrupt(ecapBASE_t *ecap, ecapInterrupt_t interrupts)
*   @brief Enable eCAP interrupt sources
*
*   @param[in] ecap       The capture (eCAP) object handle (ecapREG1..6)
*   @param[in] interrupts eCAP interrupt sources
*                           - ecapInt_CTR_CMP: Denotes CTR = CMP interrupt        
*                           - ecapInt_CTR_PRD: Denotes CTR = PRD interrupt        
*                           - ecapInt_CTR_OVF: Denotes CTROVF interrupt           
*                           - ecapInt_CEVT4  : Denotes CEVT4 interrupt            
*                           - ecapInt_CEVT3  : Denotes CEVT3 interrupt            
*                           - ecapInt_CEVT2  : Denotes CEVT2 interrupt            
*                           - ecapInt_CEVT1  : Denotes CEVT1 interrupt            
*                           - ecapInt_All    : Denotes All interrupts             
*
*   This function enables eCAP interrupt sources
*/
/* SourceId : ECAP_SourceId_018 */
/* DesignId : ECAP_DesignId_015 */
/* Requirements : HL_CONQ_ECAP_SR16 */
void ecapEnableInterrupt(ecapBASE_t *ecap, ecapInterrupt_t interrupts)
{
    ecap->ECEINT |= interrupts;
}

/** @fn void ecapDisableInterrupt(ecapBASE_t *ecap, ecapInterrupt_t interrupts)
*   @brief Disables eCAP interrupt sources
*
*   @param[in] ecap       The capture (eCAP) object handle (ecapREG1..6)
*   @param[in] interrupts eCAP interrupt sources
*                           - ecapInt_CTR_CMP: Denotes CTR = CMP interrupt        
*                           - ecapInt_CTR_PRD: Denotes CTR = PRD interrupt        
*                           - ecapInt_CTR_OVF: Denotes CTROVF interrupt           
*                           - ecapInt_CEVT4  : Denotes CEVT4 interrupt            
*                           - ecapInt_CEVT3  : Denotes CEVT3 interrupt            
*                           - ecapInt_CEVT2  : Denotes CEVT2 interrupt            
*                           - ecapInt_CEVT1  : Denotes CEVT1 interrupt            
*                           - ecapInt_All    : Denotes All interrupts             
*
*   This function disables eCAP interrupt sources
*/
/* SourceId : ECAP_SourceId_019 */
/* DesignId : ECAP_DesignId_016 */
/* Requirements : HL_CONQ_ECAP_SR17 */
void ecapDisableInterrupt(ecapBASE_t *ecap, ecapInterrupt_t interrupts)
{
    ecap->ECEINT &= (uint16)~(uint16)interrupts;
}

/** @fn uint16 ecapGetEventStatus(ecapBASE_t *ecap, ecapInterrupt_t events)
*   @brief Return Event status
*
*   @param[in] ecap    The capture (eCAP) object handle (ecapREG1..6)
*   @param[in] events  eCAP events
*                        - ecapInt_CTR_CMP: Denotes CTR = CMP interrupt        
*                        - ecapInt_CTR_PRD: Denotes CTR = PRD interrupt        
*                        - ecapInt_CTR_OVF: Denotes CTROVF interrupt           
*                        - ecapInt_CEVT4  : Denotes CEVT4 interrupt            
*                        - ecapInt_CEVT3  : Denotes CEVT3 interrupt            
*                        - ecapInt_CEVT2  : Denotes CEVT2 interrupt            
*                        - ecapInt_CEVT1  : Denotes CEVT1 interrupt            
*                        - ecapInt_Global : Denotes Capture global interrupt   
*                        - ecapInt_All    : Denotes All interrupts       
*   @return Event status      
*
*   This function returns the event status
*/
/* SourceId : ECAP_SourceId_020 */
/* DesignId : ECAP_DesignId_017 */
/* Requirements : HL_CONQ_ECAP_SR18 */
uint16 ecapGetEventStatus(ecapBASE_t *ecap, ecapInterrupt_t events)
{
    return (ecap->ECFLG & events);
}

/** @fn void ecapClearFlag(ecapBASE_t *ecap, ecapInterrupt_t events)
*   @brief Clear Event status
*
*   @param[in] ecap    The capture (eCAP) object handle (ecapREG1..6)
*   @param[in] events  eCAP events
*                        - ecapInt_CTR_CMP: Denotes CTR = CMP interrupt        
*                        - ecapInt_CTR_PRD: Denotes CTR = PRD interrupt        
*                        - ecapInt_CTR_OVF: Denotes CTROVF interrupt           
*                        - ecapInt_CEVT4  : Denotes CEVT4 interrupt            
*                        - ecapInt_CEVT3  : Denotes CEVT3 interrupt            
*                        - ecapInt_CEVT2  : Denotes CEVT2 interrupt            
*                        - ecapInt_CEVT1  : Denotes CEVT1 interrupt            
*                        - ecapInt_Global : Denotes Capture global interrupt   
*                        - ecapInt_All    : Denotes All interrupts       
*
*   This function clears the event status
*/
/* SourceId : ECAP_SourceId_021 */
/* DesignId : ECAP_DesignId_018 */
/* Requirements : HL_CONQ_ECAP_SR19 */
void ecapClearFlag(ecapBASE_t *ecap, ecapInterrupt_t events)
{
    ecap->ECCLR = events;
}

/** @fn void uint32 ecapGetCAP1(ecapBASE_t *ecap)
*   @brief Get CAP1 value
*
*   @param[in] ecap    The capture (eCAP) object handle (ecapREG1..6)    
*
*   This function returns Capture 1 value
*/
/* SourceId : ECAP_SourceId_022 */
/* DesignId : ECAP_DesignId_019 */
/* Requirements : HL_CONQ_ECAP_SR20 */
uint32 ecapGetCAP1(ecapBASE_t *ecap)
{
	return ecap->CAP1;
}

/** @fn void uint32 ecapGetCAP2(ecapBASE_t *ecap)
*   @brief Get CAP2 value
*
*   @param[in] ecap    The capture (eCAP) object handle (ecapREG1..6)    
*
*   This function returns Capture 2 value
*/
/* SourceId : ECAP_SourceId_023 */
/* DesignId : ECAP_DesignId_019 */
/* Requirements : HL_CONQ_ECAP_SR20 */
uint32 ecapGetCAP2(ecapBASE_t *ecap)
{
	return ecap->CAP2;
}

/** @fn void uint32 ecapGetCAP3(ecapBASE_t *ecap)
*   @brief Get CAP3 value
*
*   @param[in] ecap    The capture (eCAP) object handle (ecapREG1..6)    
*
*   This function returns Capture 3 value
*/
/* SourceId : ECAP_SourceId_024 */
/* DesignId : ECAP_DesignId_019 */
/* Requirements : HL_CONQ_ECAP_SR20 */
uint32 ecapGetCAP3(ecapBASE_t *ecap)
{
	return ecap->CAP3;
}

/** @fn void uint32 ecapGetCAP4(ecapBASE_t *ecap)
*   @brief Get CAP4 value
*
*   @param[in] ecap    The capture (eCAP) object handle (ecapREG1..6)    
*
*   This function returns Capture 4 value
*/
/* SourceId : ECAP_SourceId_025 */
/* DesignId : ECAP_DesignId_019 */
/* Requirements : HL_CONQ_ECAP_SR20 */
uint32 ecapGetCAP4(ecapBASE_t *ecap)
{
	return ecap->CAP4;
}

/** @fn void ecap1GetConfigValue(ecap_config_reg_t *config_reg, config_value_type_t type)
*   @brief Get the initial or current values of the configuration registers
*
*	@param[in] *config_reg: pointer to the struct to which the initial or current 
*                           value of the configuration registers need to be stored
*	@param[in] type: 	whether initial or current value of the configuration registers need to be stored
*						- InitialValue: initial value of the configuration registers will be stored 
*                                       in the struct pointed by config_reg
*						- CurrentValue: initial value of the configuration registers will be stored 
*                                       in the struct pointed by config_reg
*
*   This function will copy the initial or current value (depending on the parameter 'type') 
*   of the configuration registers to the struct pointed by config_reg
*
*/
/* SourceId : ECAP_SourceId_026 */
/* DesignId : ECAP_DesignId_020 */
/* Requirements : HL_CONQ_ECAP_SR21 */
void ecap1GetConfigValue(ecap_config_reg_t *config_reg, config_value_type_t type)
{
	if (type == InitialValue)
	{
		config_reg->CONFIG_CTRPHS = ECAP1_CTRPHS_CONFIGVALUE;
		config_reg->CONFIG_ECCTL1 = ECAP1_ECCTL1_CONFIGVALUE;
		config_reg->CONFIG_ECCTL2 = ECAP1_ECCTL2_CONFIGVALUE;
		config_reg->CONFIG_ECEINT = ECAP1_ECEINT_CONFIGVALUE;
	}
	else
	{
		config_reg->CONFIG_CTRPHS = ecapREG1->CTRPHS;
		config_reg->CONFIG_ECCTL1 = ecapREG1->ECCTL1;
		config_reg->CONFIG_ECCTL2 = ecapREG1->ECCTL2;
		config_reg->CONFIG_ECEINT = ecapREG1->ECEINT;
	}
}

/** @fn void ecap2GetConfigValue(ecap_config_reg_t *config_reg, config_value_type_t type)
*   @brief Get the initial or current values of the configuration registers
*
*	@param[in] *config_reg: pointer to the struct to which the initial or current 
*                           value of the configuration registers need to be stored
*	@param[in] type: 	whether initial or current value of the configuration registers need to be stored
*						- InitialValue: initial value of the configuration registers will be stored 
*                                       in the struct pointed by config_reg
*						- CurrentValue: initial value of the configuration registers will be stored 
*                                       in the struct pointed by config_reg
*
*   This function will copy the initial or current value (depending on the parameter 'type') 
*   of the configuration registers to the struct pointed by config_reg
*
*/
/* SourceId : ECAP_SourceId_027 */
/* DesignId : ECAP_DesignId_020 */
/* Requirements : HL_CONQ_ECAP_SR21 */
void ecap2GetConfigValue(ecap_config_reg_t *config_reg, config_value_type_t type)
{
	if (type == InitialValue)
	{
		config_reg->CONFIG_CTRPHS = ECAP2_CTRPHS_CONFIGVALUE;
		config_reg->CONFIG_ECCTL1 = ECAP2_ECCTL1_CONFIGVALUE;
		config_reg->CONFIG_ECCTL2 = ECAP2_ECCTL2_CONFIGVALUE;
		config_reg->CONFIG_ECEINT = ECAP2_ECEINT_CONFIGVALUE;
	}
	else
	{
		config_reg->CONFIG_CTRPHS = ecapREG2->CTRPHS;
		config_reg->CONFIG_ECCTL1 = ecapREG2->ECCTL1;
		config_reg->CONFIG_ECCTL2 = ecapREG2->ECCTL2;
		config_reg->CONFIG_ECEINT = ecapREG2->ECEINT;
	}
}

/** @fn void ecap3GetConfigValue(ecap_config_reg_t *config_reg, config_value_type_t type)
*   @brief Get the initial or current values of the configuration registers
*
*	@param[in] *config_reg: pointer to the struct to which the initial or current 
*                           value of the configuration registers need to be stored
*	@param[in] type: 	whether initial or current value of the configuration registers need to be stored
*						- InitialValue: initial value of the configuration registers will be stored 
*                                       in the struct pointed by config_reg
*						- CurrentValue: initial value of the configuration registers will be stored 
*                                       in the struct pointed by config_reg
*
*   This function will copy the initial or current value (depending on the parameter 'type') 
*   of the configuration registers to the struct pointed by config_reg
*
*/
/* SourceId : ECAP_SourceId_028 */
/* DesignId : ECAP_DesignId_020 */
/* Requirements : HL_CONQ_ECAP_SR21 */
void ecap3GetConfigValue(ecap_config_reg_t *config_reg, config_value_type_t type)
{
	if (type == InitialValue)
	{
		config_reg->CONFIG_CTRPHS = ECAP3_CTRPHS_CONFIGVALUE;
		config_reg->CONFIG_ECCTL1 = ECAP3_ECCTL1_CONFIGVALUE;
		config_reg->CONFIG_ECCTL2 = ECAP3_ECCTL2_CONFIGVALUE;
		config_reg->CONFIG_ECEINT = ECAP3_ECEINT_CONFIGVALUE;
	}
	else
	{
		config_reg->CONFIG_CTRPHS = ecapREG3->CTRPHS;
		config_reg->CONFIG_ECCTL1 = ecapREG3->ECCTL1;
		config_reg->CONFIG_ECCTL2 = ecapREG3->ECCTL2;
		config_reg->CONFIG_ECEINT = ecapREG3->ECEINT;
	}
}

/** @fn void ecap4GetConfigValue(ecap_config_reg_t *config_reg, config_value_type_t type)
*   @brief Get the initial or current values of the configuration registers
*
*	@param[in] *config_reg: pointer to the struct to which the initial or current 
*                           value of the configuration registers need to be stored
*	@param[in] type: 	whether initial or current value of the configuration registers need to be stored
*						- InitialValue: initial value of the configuration registers will be stored 
*                                       in the struct pointed by config_reg
*						- CurrentValue: initial value of the configuration registers will be stored 
*                                       in the struct pointed by config_reg
*
*   This function will copy the initial or current value (depending on the parameter 'type') 
*   of the configuration registers to the struct pointed by config_reg
*
*/
/* SourceId : ECAP_SourceId_029 */
/* DesignId : ECAP_DesignId_020 */
/* Requirements : HL_CONQ_ECAP_SR21 */
void ecap4GetConfigValue(ecap_config_reg_t *config_reg, config_value_type_t type)
{
	if (type == InitialValue)
	{
		config_reg->CONFIG_CTRPHS = ECAP4_CTRPHS_CONFIGVALUE;
		config_reg->CONFIG_ECCTL1 = ECAP4_ECCTL1_CONFIGVALUE;
		config_reg->CONFIG_ECCTL2 = ECAP4_ECCTL2_CONFIGVALUE;
		config_reg->CONFIG_ECEINT = ECAP4_ECEINT_CONFIGVALUE;
	}
	else
	{
		config_reg->CONFIG_CTRPHS = ecapREG4->CTRPHS;
		config_reg->CONFIG_ECCTL1 = ecapREG4->ECCTL1;
		config_reg->CONFIG_ECCTL2 = ecapREG4->ECCTL2;
		config_reg->CONFIG_ECEINT = ecapREG4->ECEINT;
	}
}

/** @fn void ecap5GetConfigValue(ecap_config_reg_t *config_reg, config_value_type_t type)
*   @brief Get the initial or current values of the configuration registers
*
*	@param[in] *config_reg: pointer to the struct to which the initial or current 
*                           value of the configuration registers need to be stored
*	@param[in] type: 	whether initial or current value of the configuration registers need to be stored
*						- InitialValue: initial value of the configuration registers will be stored 
*                                       in the struct pointed by config_reg
*						- CurrentValue: initial value of the configuration registers will be stored 
*                                       in the struct pointed by config_reg
*
*   This function will copy the initial or current value (depending on the parameter 'type') 
*   of the configuration registers to the struct pointed by config_reg
*
*/
/* SourceId : ECAP_SourceId_030 */
/* DesignId : ECAP_DesignId_020 */
/* Requirements : HL_CONQ_ECAP_SR21 */
void ecap5GetConfigValue(ecap_config_reg_t *config_reg, config_value_type_t type)
{
	if (type == InitialValue)
	{
		config_reg->CONFIG_CTRPHS = ECAP5_CTRPHS_CONFIGVALUE;
		config_reg->CONFIG_ECCTL1 = ECAP5_ECCTL1_CONFIGVALUE;
		config_reg->CONFIG_ECCTL2 = ECAP5_ECCTL2_CONFIGVALUE;
		config_reg->CONFIG_ECEINT = ECAP5_ECEINT_CONFIGVALUE;
	}
	else
	{
		config_reg->CONFIG_CTRPHS = ecapREG5->CTRPHS;
		config_reg->CONFIG_ECCTL1 = ecapREG5->ECCTL1;
		config_reg->CONFIG_ECCTL2 = ecapREG5->ECCTL2;
		config_reg->CONFIG_ECEINT = ecapREG5->ECEINT;
	}
}

/** @fn void ecap6GetConfigValue(ecap_config_reg_t *config_reg, config_value_type_t type)
*   @brief Get the initial or current values of the configuration registers
*
*	@param[in] *config_reg: pointer to the struct to which the initial or current 
*                           value of the configuration registers need to be stored
*	@param[in] type: 	whether initial or current value of the configuration registers need to be stored
*						- InitialValue: initial value of the configuration registers will be stored 
*                                       in the struct pointed by config_reg
*						- CurrentValue: initial value of the configuration registers will be stored 
*                                       in the struct pointed by config_reg
*
*   This function will copy the initial or current value (depending on the parameter 'type') 
*   of the configuration registers to the struct pointed by config_reg
*
*/
/* SourceId : ECAP_SourceId_031 */
/* DesignId : ECAP_DesignId_020 */
/* Requirements : HL_CONQ_ECAP_SR21 */
void ecap6GetConfigValue(ecap_config_reg_t *config_reg, config_value_type_t type)
{
	if (type == InitialValue)
	{
		config_reg->CONFIG_CTRPHS = ECAP6_CTRPHS_CONFIGVALUE;
		config_reg->CONFIG_ECCTL1 = ECAP6_ECCTL1_CONFIGVALUE;
		config_reg->CONFIG_ECCTL2 = ECAP6_ECCTL2_CONFIGVALUE;
		config_reg->CONFIG_ECEINT = ECAP6_ECEINT_CONFIGVALUE;
	}
	else
	{
		config_reg->CONFIG_CTRPHS = ecapREG6->CTRPHS;
		config_reg->CONFIG_ECCTL1 = ecapREG6->ECCTL1;
		config_reg->CONFIG_ECCTL2 = ecapREG6->ECCTL2;
		config_reg->CONFIG_ECEINT = ecapREG6->ECEINT;
	}
}



